M. C. Breschi scite author profile

M. C. Breschi

5Publications

37Citation Statements Received

98Citation Statements Given

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University of Pisa

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Synergistic interaction between PPAR ligands and salbutamol on human bronchial smooth muscle cell proliferation

Fogli

Stefanelli

Picchianti

et al. 2012

British J Pharmacology

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BACKGROUND AND PURPOSEAn important objective in asthma therapy is to prevent the accelerated growth of airway smooth muscle cells which leads to hyperplasia and bronchial hyperreactivity. We investigated the effect of combination of salbutamol and PPARg agonists on growth factor-stimulated human bronchial smooth muscle cell (BSMC) proliferation. EXPERIMENTAL APPROACHSynergism was quantified by the combination index-isobologram method. Assays used here included analyses of growth inhibition, cell viability, DNA fragmentation, gene transcription, cell cycle and protein expression. KEY RESULTSThe PPARg gene was highly expressed in BSMC and the protein was identified in cell nuclei. Single-agent salbutamol or PPARg agonists prevented growth factor-induced human BSMC proliferation within a micromolar range of concentrations through their specific receptor subtypes. Sub-micromolar levels of combined salbutamol-PPARg agonist inhibited growth by 50% at concentrations from~2 to 12-fold lower than those required for each drug alone, without induction of apoptosis or necrosis. Combination treatments also promoted cell cycle arrest at the G1/S transition phase and inhibition of ERK phosphorylation. CONCLUSIONS AND IMPLICATIONSThe synergistic interaction between PPARg agonists and b2-adrenoceptor agonists on airway smooth muscle cell proliferation highlights the anti-remodelling potential of this combination in chronic lung diseases.

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Role of the (acyloxy)methyl moiety in eliciting the adrenergic .beta.-blocking activity of 3-(acyloxy)propanolamines

Macchia¹,

Balsamo²,

Lapucci³

et al. 1987

J. Med. Chem.

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Some totally aliphatic 3-(acyloxy)propanolamines were synthesized with the aim of testing whether beta-blocking activity could be obtained from this class of drugs, even in the absence of an aromatic group. The significant and, in most cases, competitive beta-blocking activity shown by the compounds under examination, together with the results of a theoretical study in which their reactivity was compared with that of other adrenergic beta-blocking drugs, seems to confirm a hypothesis previously advanced on the basis of knowledge about the action mechanism of adrenergic beta-blocking drugs and of the results of structural studies. It was also possible to suggest some considerations about the role played by the (acyloxy)methyl portion of 3-(acyloxy)propanolamines in eliciting their adrenergic beta-blocking activity.

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The [(Methyloxy)imino]methyl Moiety as a Bioisoster of Aryl. A Novel Class of Completely Aliphatic .beta.-Adrenergic Receptor Antagonists

Macchia¹,

Balsamo²,

Breschi³

et al. 1994

J. Med. Chem.

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Previous studies in the field of beta-adrenergic drugs had supported the hypothesis of the existence of a bioisosterism between the [(methyleneamino)oxy]methyl moiety (C = NOCH2, MAOMM) of type B beta-blocking drugs and the aryl (Ar) of type A beta-blocking agents. In the MAOMM, however, the carbon of the CH2 linked to the oximic oxygen possesses a hybridization (sp3) and a geometry different from those of the corresponding carbon of Ar which possesses an sp2 hybridization. Furthermore, in the MAOMM, in its preferred conformation, the unsaturated portion (C = N) is situated in a spatial area which does not correspond exactly to the area occupied by Ar. The formal inversion of the atomic sequence C = NOCH2 of the MAOMM leads to a different type of group, the [(methyloxy)imino]methyl moiety (CH2ON = C, MOIMM), which, in the E configuration, appears to present greater steric and electronic analogies with an Ar, with respect to the MAOMM. On the basis of these observations, some completely aliphatic (E)-N-(3-amino-2- hydroxypropylidene)(alkyloxy)amino derivatives of type C (11a,b and 12a, b) were synthesized, the their beta-adrenergic properties were compared with those of the corresponding [(methyleneamino)oxy]-methyl isomers of type B (19a, b and 20a, b). The similar beta-adrenergic properties of 11, 12 and 19, 20 evaluated in vitro both by radioligand binding assays and by functional tests on isolated preparations, are discussed on the basis of considerations regarding the spatial correspondences and electronic analogies between the MOIMM and the MAOMM.

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Conformationally restrained analogs of sympathomimetic catecholamines. Synthesis, conformational analysis and adrenergic activity of isochroman derivatives

Macchia

Balsamo²,

Breschi³

et al. 1993

J. Med. Chem.

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In previous papers dealing with the study of the conformations and the biopharmacological activity of conformationally restrained analogs of sympathomimetic catecholamines (NE and ISO), proposals were advanced for the three-dimensional molecular models A, B, and C; these models provided information about the steric requirements for the direct activation of alpha 1, alpha 2,beta 1, and beta 2 adrenoceptors, respectively. The 1-(aminomethyl)-6,7-dihydroxyisochromans 11 and 12 and the 1-(aminomethyl)-5,6-dihydroxyisochromans 13 and 14 (1-AMDICs) are two different types of semirigid analogs of NE and ISO. The alpha 1, alpha 2, beta 1, and beta 2 adrenergic properties of the 1-AMDICs 11-14 were evaluated in vitro, both by radioligand binding assays and by functional tests on isolated preparations, and were compared with those of their parent compounds (NE and ISO). The results of a conformational study carried out by means of both 1H NMR spectrometry and theoretical calculations indicated that, in these 1-AMDICs, the presumed active groups (aryl moiety, amine nitrogen and benzylic ethereal oxygen) are in a spatial relationship corresponding to the one found for NE and ISO in their preferred conformations, which also proved to be the pharmacophoric conformation in the models A-C. By means of a comparison of the stereostructures of the 1-AMDICs 11-14 with their biopharmacological properties, it was possible to obtain a further definition of the model B with respect to the activation of the alpha 2 adrenoceptors; the superimposition of the 1-AMDICs 11 and 12 with the molecular model C made it possible to detect an area of the beta-adrenergic receptors which might hinder the fit of adrenergic drugs that are analogs of catecholamines with these receptors.

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ChemInform Abstract: AN INTERDISCIPLINARY APPROACH TO THE DESIGN OF NEW STRUCTURES ACTIVE AT THE β‐ADRENERGIC RECEPTOR. ALIPHATIC OXIME ETHER DERIVATIVES

Macchia¹,

Balsamo²,

Lapucci³

et al. 1985

Chemischer Informationsdienst

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M. C. Breschi

Synergistic interaction between PPAR ligands and salbutamol on human bronchial smooth muscle cell proliferation

Role of the (acyloxy)methyl moiety in eliciting the adrenergic .beta.-blocking activity of 3-(acyloxy)propanolamines

The [(Methyloxy)imino]methyl Moiety as a Bioisoster of Aryl. A Novel Class of Completely Aliphatic .beta.-Adrenergic Receptor Antagonists

Conformationally restrained analogs of sympathomimetic catecholamines. Synthesis, conformational analysis and adrenergic activity of isochroman derivatives

ChemInform Abstract: AN INTERDISCIPLINARY APPROACH TO THE DESIGN OF NEW STRUCTURES ACTIVE AT THE β‐ADRENERGIC RECEPTOR. ALIPHATIC OXIME ETHER DERIVATIVES

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